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參數(shù)資料

型號：	CYP15G0402DXB
廠商：	Cypress Semiconductor Corp.
英文描述：	Quad HOTLink II SERDES(四HOTLink II并行轉換器)
中文描述：	二，四的HOTLink SERDES的（四的HOTLink二并行轉換器）
文件頁數(shù)：	14/29頁
文件大?。?/td>	634K
代理商：	CYP15G0402DXB

CYP15G0402DXB

CYV15G0402DXB

Document #: 38-02057 Rev. *G

Page 14 of 29

Analog Amplitude

While most signal monitors are based on fixed constants, the

analog amplitude level detection is adjustable. This allows

operation with highly attenuated signals, or in high-noise

environments. This adjustment is made through the SDASEL

signal, a three-level select

[5]

input, which sets the trip point for

the detection of a valid signal at one of three levels, as listed

Table 4

. This control input affects the analog monitors for all

receive channels.

When a particular channel is configured for local loopback

(LPENx = HIGH), no line receivers are selected, and the LFIx

output for each channel reports only the receive VCO

frequency out-of-range and transition density status of the

associated transmit signal. When local loopback is active, the

Analog Signal Detect Monitors are disabled.

Transition Density

The Transition Detection logic checks for the absence of any

transitions spanning greater than six transmission characters

(60 bits). If no transitions are present in the data received on

a channel, the Transition Detection logic for that channel will

assert LFIx. The LFIx output remains asserted until at least

one transition is detected in each of three adjacent received

characters.

Range Controls

The Clock/Data Recovery (CDR) circuit includes logic to

monitor the frequency of the Phase Locked Loop (PLL)

Voltage Controlled Oscillator (VCO) used to sample the

incoming data stream. This logic ensures that the VCO

operates at, or near the rate of the incoming data stream for

two primary cases:

when the incoming data stream resumes after a time in

which it has been “missing”

when the incoming data stream is outside the acceptable

frequency range

To perform this function, the frequency of the VCO is periodi-

cally sampled and compared to the frequency of the REFCLK

input. If the VCO is running at a frequency beyond

+1500ppm

[8]

as defined by the reference clock frequency, it is

periodically forced to the correct frequency (as defined by

REFCLK, SPDSEL, and TXRATE) and then released in an

attempt to lock to the input data stream. The sampling and

relock period of the Range Control is calculated as follows:

RANGE CONTROL SAMPLING PERIOD = (REFCLK-

PERIOD) * (16000).

During the time that the Range Control forces the PLL VCO to

run at REFCLK*10 (or REFCLK*20 when TXRATE = HIGH)

Notes:

The peak amplitudes listed in this table are for typical waveforms that have generally 3 – 4 transitions for every ten bits. In a worse case environment the signals

may have a sign-wave appearance (highest transition density with repeating 0101...). Signal peak amplitudes levels within this environment type could increase

the values in the table above by approximately 100 mV.

10. When a disabled receive channel is reenabled, the status of the associated LFIx output and data on the parallel outputs for the associated channel may be

indeterminate for up to 2 ms.

rate, the LFIx output will be asserted LOW. While the PLL is

attempting to re-lock to the incoming data stream, LFIx may be

either HIGH or LOW (depending on other factors such as

transition density and amplitude detection) and the recovered

byte clock (RXCLKx) may run at an incorrect rate (depending

on the quality or existence of the input serial data stream).

After a valid serial data stream is applied, it may take up to one

RANGE CONTROL SAMPLING PERIOD before the PLL

locks to the input data stream, after which LFIx should be

HIGH.

Receive Channel Enabled

The CYP(V)15G0402DXB contains four receive channels that

can be independently enabled and disabled. Each channel

can be enabled or disabled separately through the BOE[7:0]

inputs, as controlled by the RXLE latch-enable signal. When

RXLE is HIGH, the signals present on the BOE[7:0] inputs are

passed through the Receive Channel Enable Latch to control

the PLLs and logic of the associated receive channel. The

BOE[7:0] input associated with a specific receive channel is

listed in

Table 2

When RXLE is HIGH and BOE[x] is HIGH, the associated

receive channel is enabled to receive and recover a serial

stream. When RXLE is HIGH and BOE[x] is LOW, the

associated receive channel is disabled and powered down.

Any disabled channel will indicate an asserted LFIx output.

When RXLE returns LOW, the values present on the BOE[7:0]

inputs are latched in the Receive Channel Enable Latch, and

remain there until RXLE returns HIGH to open the latch

again.

[10]

Clock/Data Recovery

The extraction of a bit-rate clock and recovery of bits from each

received serial stream is performed by a separate Clock/Data

Recovery (CDR) block within each receive channel. The clock

extraction function is performed by embedded phase-locked

loops (PLLs) that track the frequency of the transitions in the

incoming bit streams and align the phase of their internal

bit-rate clocks to the transitions in the selected serial data

streams.

Each CDR accepts a character-rate (bit-rate

10) or

half-character-rate (bit-rate

20) reference clock from the

REFCLK input. This REFCLK input is used to

ensure that the VCO (within the CDR) is operating at the

correct frequency.

to reduce PLL acquisition time

and to limit unlocked frequency excursions of the VCO when

there is no input data present at the selected Serial Line

Receiver.

Regardless of the type of signal present, the CDR will attempt

to recover a data stream from it. If the frequency of the

recovered data stream is outside the limits of the range control

monitor, the CDR will switch to track REFCLK instead of the

data stream. Once the CDR output (RXCLKx) frequency

returns back close to REFCLK frequency, the CDR input will

be switched back to track the input data stream.

Table 4. Analog Amplitude Detect Valid Signal Levels

[9]

SDASEL

LOW

MID (Open) 280 mV p-p differential

HIGH

420 mV p-p differential

Typical Signal with Peak Amplitudes Above

140 mV p-p differential

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相關代理商/技術參數(shù)	參數(shù)描述
CYP15G0402DXB-BGC	功能描述:電信線路管理 IC Quad Channel SERDES COM RoHS:否制造商:STMicroelectronics 產品:PHY 接口類型:UART 電源電壓-最大:18 V 電源電壓-最小:8 V 電源電流:30 mA 最大工作溫度:+ 85 C 最小工作溫度:- 40 C 安裝風格:SMD/SMT 封裝 / 箱體:VFQFPN-48 封裝:Tray
CYP15G0402DXB-BGI	制造商:Cypress Semiconductor 功能描述:
CYP15G0402DXB-BGXC	功能描述:電信線路管理 IC Quad Ch HOTLink II GbE 1XFC SERDES RoHS:否制造商:STMicroelectronics 產品:PHY 接口類型:UART 電源電壓-最大:18 V 電源電壓-最小:8 V 電源電流:30 mA 最大工作溫度:+ 85 C 最小工作溫度:- 40 C 安裝風格:SMD/SMT 封裝 / 箱體:VFQFPN-48 封裝:Tray
CYP15G0402DXB-BGXI	制造商:CYPRESS 制造商全稱:Cypress Semiconductor 功能描述:Quad HOTLink II⑩ SERDES
CYP15G0402DX-BGC	制造商:CYPRESS 制造商全稱:Cypress Semiconductor 功能描述:Quad HOTLinkII SERDES

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